Penang Safety 1409

8/13/2019 Penang Safety 1409

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NOTICE

This Guideline has been prepared for the proper planning andcontrol of hillsite development activities in Penang. It is to be

used by implementing agencies, developers, engineers,contractors, property owners and the public as a guide in

planning, developing and maintaining hillsitesand the surrounding areas.

This Guideline is applied by MPPP and MPSP in consideringand evaluating for approval applications for planning permit

submitted via the state One-Stop Centre (OSC).

The States planning policy at the material timeshall take precedence.


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Penang Island has an area of 285 sq km and

of which about 40% are lands of Class 3 andClass 4 with slope gradient exceeding 25.A significant portion of them is privatelyowned land and the rest belongs to the stategovernment.

This Guideline aims to improve safety andthe environment of hillsite developments. TheState Government has appointed the HillsiteDevelopment Advisory Panel Committee,which developed the Guideline after reviewing

existing guidelines, lessons learnt from slopefailures and landslides as well as studyinggood practices.

The Guideline will serve as the main referencein considerations of planning approval forhillsite development applications, and to beused by all the relevant agencies.

Penang Local Governments (MPPP & MPSP)

are to strengthen their Geotechnical Unit,which processes and approves applicationsfor hillsite developments, followed by strictenforcement.

A monitoring team will be established toensure compliance in construction andmonitoring performance of slopes. The unitwill initially recruit contract staff with slopeengineering expertise, and eventually has itsown permanent experienced engineering

staff.

YAB Tuan Lim Guan Eng

An advisory panel of experts will be appointed

to help the Geotechnical Unit. The Panel shallmeet regularly to provide input and trainingto the staff of the unit and that of allstakeholders.

Due care and diligence of all the staff of thestakeholders are needed to use and implementthe Guideline to mitigate landslides andprevent loss of lives from landslides whilefacilitating sustainable land use for the well-being of Penangites.

Penalty for non-compliance will be betterstated for ease of enforcement.

Let us all work together towards a safe andgreen Penang.

YAB Tuan Lim Guan EngChief Minister of Penang


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0 - 15 = 52%

Legend

> 15 - 25 = 9%

> 25 - 35 = 19%

> 35 = 20%


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Tuan Haji Zainuddin Ahamad

Hillsite development has been tightened with guidelinesfrom federal government agencies following the collapseof Block 1 of the Highland Towers in 1993, with the intention

of improving safety for developments.

This new set of guidelines for hillsite development has beenspecifically formulated for Penang, and to be used by allstake holders. The Advisory Panel, who developed theguideline, comprised slope engineering experts from Malaysiaand local practising engineers from Penang.

Top state and federal government officers having experiencedealing with approvals and control of hillsite developmentsalso assisted the Panel.

The Guideline has gone through rigorous review processesincluding a public forum involving all stakeholders, both inthe public and private sectors.

Thus, this Guideline for Hillsite Development can now provideclear and consistent application procedures together withtransparent approving mechanisms and controls duringconstruction.

The plinth areas for Class 3 and Class 4 lands have alsobeen reduced by more than 5% for Class 3 and about 20%for Class 4. This is to enhance the safety of slopes andpreserve more green areas.

Tuan Haji Zainuddin Ahamad

DirectorPenang Town & Country Planning Department


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Table 1 : Slope classification for design purposes 11Table 2 : Submission requirements 12Table 3 : Qualifications of Engineers 13Table 4 : Appointment of Geotechnical Engineer and

Independent Checker 14Table 5 : Construction supervision requirements 14Table 6 : Colour Code for Terrain Mapping 16Table 7 : Criteria for Selecting a Competent Engineer 19

List of Tables 5List of Figures 5

List Appendices 5Abbreviations 6Objectives 7Towards A Safe & Green Penang 8Major Considerations 9Classification of Slopes 11Submission Requirements 15Appointment of Competent Engineers 18Maintenance Inspection 20The Way Forward 22Appendices 23Acknowledgement 32

Fig. 1 : Terrain Map of Penang Island 2Fig. 2 : Terrain Map of Seberang Perai 3FIg. 3 : Buffer Zone 10

Fig. 4 : Development on Slope 10Fig. 5 : Hillsite Development Plan Submission Flow Chart 16Fig. 6 : Typical Inspection Procedure 21

Appendix 1. Proposed Format for Geotechnical Report 24Appendix 2. Independent Checker Report format 28Appendix 3. Criteria for a relevant experienced engineer 29

Appendix 4. Checklist for Maintenance Manual 31


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For easier understanding, the following are acronyms used in the Guideline:

BEM Board of Engineers, Malaysia

CKC Cawangan Kejuruteraan Cerun (Hillsite Engineering Division)

GE Geotechnical Engineer

JAS Jabatan Alam Sekitar (Department of Environment)

JKR Jabatan Kerja Raya (Public Works Department)

JMG Jabatan Mineral dan Geosains (Minerals and Geoscience Department)

JPBD Jabatan Perancang Bandar dan Desa (Town and Country Planning Department)

JPS Jabatan Pengairan dan Saliran (Department of Irrigation and Drainage)

MASMA Manual Saliran Mesra Alam (Environmental Friendly Urban Drainage Manual)

MPPP Majlis Perbandaran Pulau Pinang (Penang Island Municipal Council)

MPSP Majlis Perbandaran Seberang Perai (Seberang Perai Municipal Council)

OSC One Stop Centre

PBT Pihak Berkuasa Tempatan (Local Authority)

PSP Principal Submitting Person (Planner, Architect or Engineer)

SP Submitting Person

(Engineer Civil & Structural and/or Mechanical & Electrical)

UBBL Uniform Building By-laws


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The Penang Safety Guideline For Hillsite Development 2012is to streamline both

the existing federal and state guidelines for all hillsite developments with the aim to

improve slope safety and enhance the environment.

This Guideline will no doubt mitigate the risk of landslides when used and implemented

diligently by all the stakeholders.

The Hillsite Development Advisory Panel Committee, appointed by the Penang Government,

has reviewed the existing guidelines and lessons learnt from slope failures and landslides

as well as current good and safe practices.

The Guideline, among others:

Has made clearer classification of slopes for ease of implementation at planning stage.

Has stated the duties and responsibilities of Engineers and Independent Checkers

during design and construction stages.

Requires Independent Checkers to visit project sites during constructions and report

any non-compliance directly to the local authority for prompt enforcement.

Has defined better the qualification and experience of key personnel (geotechnicalengineer and independent checkers) to ensure quality of works for hillsite developments

during the design and construction stages.

Has made it mandatory for developers to engage qualified engineers and independent

checkers - having the required expertise and experience on hillsite developments and

sufficient capacity to design and supervise the constructions.

Requires contractors to comply with the design drawings and specifications for the

slope works.

Has reduced the requirement for plinth area (maximum allowable hard surface footprint)

for buildings on Class 3 and Class 4 hillside lands, with the intention of preserving

more natural green areas.

Requires engineered slopes including earth retaining systems to incorporate green

features to enhance Penangs natural environment.


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The Guideline addresses and upgrades existing safety measures and outlines better projectimplementation procedures and effective enforcement. It strives to inculcate good slopedesign, construction and maintenance culture. With its proper implementation, theGuideline will inspire confidence in the safety of hillsite developments in Penang.

The advisory panel which drew up the Guideline will continue to assist the authorities

to effectively implement and enforce it. This is to ensure that developers, engineers,contractors and property owners in hillsite areas comply with good engineering practicesrelating to the stability of hill slopes.

Still lingering in the Malaysian publics consciousness are the many hill land failures whichcaused tragedies over the past 20 years.

The major causes of slope failures can be summarized as follows:

1. Design inadequate ground investigation, lack of understanding of engineeringanalysis and design.

2. Construction lack of quality assurance and quality control by contractors and lackof proper site supervision by engineers.

3. Maintenance lack of slope maintenance culture is prevalent in both the public andprivate sectors.

4. Communication lack of communication amongst various parties involved inconstruction.

The resulting loss of lives, destruction to public and private properties as well as theensuing legal tangles that may be still ongoing have triggered various reactions; therehad been conferences, seminars, dialogues, more stringent rules and regulations andbetter practices for hillsite development.

The Guideline makes a concerted attempt to incorporate all the lessons learnt.


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Numerous guidelines for hillsite developments from various agencies have been produced

after the collapse of Block 1 of Highland Towers in 1993. This Guideline aims to simplify

existing procedures and to improve the safety of hillsite developments.

To further improve the safety of slopes and earth retaining systems, this Guideline has

some major considerations that include:

1. Slope classification for planning approval has been simplified for clarity and consistency.

2. Design requirements of slope have been strengthened through clearer definitions.

3. The required qualifications of engineers including geotechnical engineers needed fordifferent terrain classification of slopes are established.

4. The requirement and need for independent checkers is now better defined and the

input is extended beyond design to include inspection during construction.

5. Maintenance of slope needs proper input by the Engineers which includes the need

to produce maintenance manuals so that owners know their responsibilities and what

entails in the maintenance of slopes.

6. The maximum allowable hard surface footprint has been intentionally reduced by

more than 5% for Class 3A & 3B and about 20% for Class 4A & 4B slopes. This will

improve safety and enhance the preservation of the green environment.


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52%

9%Class 1

Class 2

Class 3 (A & B)

Class 4 (A & B)

19%

20%

Slopes are classified according to slope gradient and type.

The slope gradient, in degrees, is measured from the horizontal plane. Sufficient surveypoints shall be obtained to produce accurate contour lines at 5m intervals. More surveypoints shall be obtained at localized areas such as existing slip, man-made slopes/structures,etc. The extent of survey shall include an area beyond the land boundary not less than20 metres.

The type of slopes is divided into natural or man-made slope. Man-made slope is furtherdivided into cut or fill slope. Higher risk is associated with fill slope.

Table 1 shows the Slope Classification for Design Purposes. The table also shows theassociated risk and the maximum allowable hard surface footprint. The maximum allowablehard surface footprints for Class 3A, 3B, 4A and 4B are reduced in this guideline as

compared to the previous guidelines. This is to preserve the green area and to allow easymaintenance and strengthening of slopes.

The maximum allowable hard surface in Table 1 below is applicable to all allowabledevelopments. Nonetheless, the states planning policy at the material time shall takeprecedence.

35%

35%

30%

30%

ASSOCIATED RISK

CLASS SLOPEGRADIENTNATURAL

SLOPE

MAN-MADE SLOPE1

CUT FILL

Notes:1 For man-made slope within a proposed development area, which is formed previously prior to the current application for development.2 Hard Surface is an impervious surface as defined in MASMA.

MAXIMUMALLOWABLE

HARDSURFACE2

FOOTPRINT

1

2

3A

3B

4A

4B

0 - 15

> 15 - 25

> 25 - 35

> 25 - 35

> 35

> 35

Low

Low

Medium

Not Applicable

High

Not Applicable

Low

Low

Medium

Not Applicable

High

Not Applicable

Low

Low

Not Applicable

High

Not Applicable

Very High

Refer to

current policy

Table 1: Slope Classification for Design Purposes

Penang Islands Hill Land Distribution


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Table 2 shows the submission requirements for all the classes of slopes by submission

engineers. The qualifications of the submission engineers are stated in Table 3. Table 4

states the responsible party for the appointment of Geotechnical Design Engineer and

Independent Checkers.

Please take note of the following:

i) The Civil Engineer and Geotechnical Engineer for a particular project can be the same

or different engineer.

ii) The Geotechnical Engineer and Independent Checker for a particular project must be

different engineers. They must also not be from the same firm.

Table 2: Submission Requirements

SUBMISSION REQUIREMENTSCLASS

1 (Low Risk)

2 (Low Risk)

3A (Medium Risk),

3B, 4A (High Risk)

4B (Very High Risk)

Slope Stabilization Analysis by Civil Engineer

Geotechnical Report by Geotechnical Engineer

Geotechnical Report by Geotechnical Engineer

and

Geotechnical Review Report by Independent Checker


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Table 3: Qualifications of Engineers3

SUBMISSION

ENGINEER

QUALIFICATIONS

Civil Engineer

Geotechnical

Engineer3

Independent

Checker3

1. Meets relevant Local Authoritys requirements.

2. Registered Professional Engineers with Board of Engineers, Malaysia (BEM).


2. Registered Professional Engineers with BEM with minimum three years practical

geotechnical experience and one year gained in Malaysia.


2. Registered Professional Engineers with BEM with:

At least 10 years relevant practical experience in the design or construction of

buildings and, during the period 7 years immediately preceding the current

appointment, has been engaged in geotechnical design after registration as a

professional engineer with at least one year of such practical experience gained

in Malaysia.

At least 3 years relevant practical experience in slope engineering with at least

one year of such practical experience gained in Malaysia.

OR

Registered Accredited Checkers (Geotechnical) with BEM

Note:3 Qualifications of Geotechnical Engineer and Independent Checker shall be clearly specified to ensure only competent geotechnical

engineers with relevant experience undertakes the design and checking works.

Classification of Slopes


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Table 4: Appointment of Geotechnical Engineer and Independent Checker

APPOINTMENTCLASS

1 (Low Risk)

2 (Low Risk)

3A (Medium Risk),

3B, 4A (High Risk)

4B (Very High Risk)

Geotechnical Engineer is not required.

Appointment of Geotechnical Engineer by Developer.

Appointment of Geotechnical Engineer and Independent Checker by Developer.

Appointment of Geotechnical Engineer and Independent Checker by Developer and

concurred by Local Authority.

During construction, proper and adequate supervision are important. Table 5 states theconstruction supervision requirement.

Table 5: Construction supervision requirements

SUPERVISION REQUIREMENTSCLASS

1 & 2 (Low Risk)

3A (Medium Risk),

3B, 4A (High Risk)

4B (Very High Risk)

No changes to existing requirements as stipulated in UBBL Sections 5 and 7.

Additional audit via site visits shall be carried out by Independent Checker.

Minimum frequency of site visits shall be once a month.

Additional audit via site visits shall be carried out by Independent Checker.

Minimum frequency of site visits shall be once every fortnightly.

Instrumentation monitoring shall be carried out to monitor conditions of slopes.


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Pre-Submission Consultation

Submitting Person (SP) be it the Planner, Architect, Engineer, Geotechnical Engineer

or Surveyor shall engage in pre-submission consultation with the relevant departmentsprior to submission of Layout Plan and Geotechnical Report for all hillsite developmentprojects.

The submitting person shall compile or make available some basic documents and/orinformation for discussion during the pre-submission consultation with the relevantauthorities. For example land classification, land suitability, preliminary proposed Layout

Plan, Land Survey Plan and Terrain Mapping.

Preparation of final Layout Plan & Geotechnical Report

The SP shall ensure that there will be no more changes made to the Layout Plan and shallorder the Final Geotechnical Report to be prepared for concurrent submission to OSC.

Changes made during the delivery process may result in re-submission of Layout Plan andGeotechnical Report for approval.

The table below shows the colours to use in preparing terrain map.

Table 6:Colour Code for Terrain Mapping

ColourRed

Decimal RGB CodesSlope

Classification

EquivalentAutoCAD

Colour Index #Green Blue

71

51

41

11

20

1Notes:Decimal RGB codes for the 256 Colors in equivqalent with AutoCAD Color Index (numbers 0-255).Equivalent AutoCAD colour Index is provided for comparison and reference purposes only.

212

255

255

255

255

255

255

255

234

170

63

0

170

170

170

170

0

0

Class 1

Class 2

Class 3A

Class 3B

Class 4A

Class 4B

Light Green

Beige

Brown

Orange

Light Red

Red


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Fig. 5: Hillsite Development Plan Submission Flow Chart:(Concurrent Submission of Planning Permission (Layout Plan) and Geotechnical Report)

Applicant (PSP/SP/GE)

Pre-submission Consultation

OSC

OSC

Technical Departments

Check and Commenton Submitted Plan

JKR P. Pinang

Risky Land DevelopmentCommittee SecretariatDistribution of reports to


Applicant (PSP/SP)

Compliance of Requirements

including requirements from GE

PBT (Planning Dept.)Confirmation of Plan

Recommendation of Plansfor approval

OSC

Issuance of Final Approval


Check/Comment on Submitted Plan

[Chairman, MPPP, MPSP, JMG, JAS,JPS, JPBD, CKC/JKR]

21 days

2 days

2 days

40 days

1 day

14 days

37 days

14 days

Total Time = 108 days

Compilation and forwarding

of comments/requirements from

technical departments

to Applicant

Applicant (PSP/SP/GE)

Compliance of Requirements

Presentation to Risky LandDevelopment Committee

40 days

JKR P. PinangRisky Land DevelopmentCommittee Secretariat

Approval of Geotechnical Report

7 days

Total Time = 70 days

Geotechnical Report LayoutPlan

Synchronization of Layout Plan

to Geotechnical requirements

Synchronization of Layout Plan

to Geotechnical requirements


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Notes to the Submission Flow Chart

1. Pre-Submission ConsultationSubmitting Person, be it Planner, Architect, Consulting Engineer, Geotechnical Engineer andSurveyor shall engage in pre-submission consultation with the relevant Departments prior tosubmission of layout plan and geotechnical report for all project located in hillsite.

For hillsite project, submitting person shall compile or make available some basic documentsand/or information for discussion during the pre-submission consultation with the relevantauthorities. (e.g. Land Classification, Land Suitability, Preliminary Proposed Layout plan, LandSurvey plan, Terrain Mapping and etc.)

2. Preparation of final Layout Plan and Geotechnical Report for SubmissionSubmitting person to ensure that there shall be no more changes made to the layout planand order the Final Geotechnical Report to be prepared for concurrent submission to OSC.

Changes made during the delivery process may result in re-submission of layout plan andGeotechnical Report for approval.

3. Submission to OSCUpon receipt of Layout Plan and 8 copies of Geotechnical Report, OSC will forward the planand Geotechnical Report to the relevant Departments.Time frame : 2 days

4. Submission of Geotechnical Report to JKRUpon receipt of Geotechnical Report from OSC, JKR (Risky Land Development CommitteeSecretariat) will then distribute it to the relevant Departments for Comments/Clearance.Time frame : 2 days

5. Comments and Requirements from All Technical DepartmentsComments, requirements and /or recommendations from various technical departments shallbe submitted to JKR (Risky Land Development Committee Secretariat) within 21 days andshall be forwarded immediately to the SP/Geotechnical Engineer for immediate compliance.Time frame : 21 days.

6. Compliance of Requirements by Geotechnical EngineerUpon receipt of comments, requirements and or recommendations from various technicaldepartments, Geotechincal Engineer shall notify the Architect/Planner of any changes, whichmay affect the layout or building design. Upon compliance of all requirements imposed byauthorities, and synchronization of the drawing and design with Architect/Planner, Geotechnical

Engineer shall re-submit report to JKR.

Geotechnical briefing and presentation to the Risky Land Development Committee by theGeotechnical Engineer shall be accomplished within 40 days.Time frame : 40 days.

7. Approval of Geotechnical ReportGeotechnical Report shall be approved after satisfactory deliberation in the Risky LandDevelopment Committee meeting. Copy of approval will be forwarded to OSC to synchronizewith the approval process of layout plan.Time frame : 7 days

Note : Durations quoted are in calendar days.


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The method of selecting engineers by ability shall be as follows:

a) Technical Competenceb) Managerial Ability

c) Availability of Resources

d) Professional Independence & Integrity

e) Fairness of Fee

f) Quality Assurance System

These are very important criteria to be

considered in selecting a competent engineer(see appendix 3 for detailed explanation & examples).

The other considerations are the engineers personal attributes such as having good

commitment towards project, communication skills and engineering judgement, and

these should be well augmented with his experience in the industry.


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Table 7: Criteria for Selecting a Competent Engineer

Technical Competence(Max. 30pts)

- Competency, experience and qualifications of key personnel

- Knowledge management system

- Methodology of technical approach to be utilized

- List of similar projects

- Comments from previous clients

Managerial Ability and Availability of Resources(Max. 30pts)

- Adequate experienced staff for the project

- Similar experience in handling the scale of project

- Record of project achievements and success of previous projects

- Engineers technical manual, check-lists or procedures to ensure quality output

- Evidence of value-engineering

Professional Independence and Integrity(Max. 5pts)

- Reputation of the engineer

- List of clients

Fairness of Fee(Max. 25pts)

- Value-for-money service in relation to the detailed scope of work

Quality Assurance System(Max. 10pts)

- Examine documentation of a project particularly on the:

Check & review Traceability ex. meeting notes, etc

- ISO9001:2000 certified is encouraged

Total Score

CRITERIA

Selection Procedure

The Selection procedure shall have thefollowing key components:

1) Terms of reference2) Pre-qualification3) Short-listing4) Request for technical and fees proposals5) Assessment of proposals

SCORE


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The maintenance of slopes and earth retaining walls should generally follow the guidelines

given in the Public Works Departments publication Guidelines on Slope Maintenance

in Malaysia, JKR 21503-0001-06, Slope Engineering Branch, Public Works Department

Malaysia, August 2006.

Those responsible for the slope design shall prepare recommendations for regular

inspections and maintenance that are essential to be followed. Regular inspections and

maintenance are essential for the continued stability of well-designed and well-constructed

slopes.

Routine maintenance inspection, engineer inspection for maintenance, regular checks

of buried water carrying services and regular monitoring of special measures are fourmajor categories of maintenance inspection.


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Fig. 6: Typical Inspection Procedure

The typical inspection procedure is set out as above.

Maintenance manual

A maintenance manual shall be prepared by the Engineer, and the maintenance programme

includes monitoring of the installed instruments if they are specifically needed in the

design.

The proposed actions shall clearly be specified at various threshold readings or profiles

of the monitoring results.

All stake holders are to accord maintenance effort to slopes and retaining structures with

respect to their consequences. It must be noted that safe and efficient access is important

for maintenance works.

Refer to Appendix 4 for a Checklist for Maintenance Manual.

Records of blockage, cracks, slips and chainage

Verify records by Maintenance/Inspection Team

Carry out technical assessment on existing

conditions and stability of slopes

*Frequency may be reduced to once every two

months for slopes with less than two berms height

Carry out remedial works

(if necessary)

Inspection Once Every 5 Years

by Geotechnical Engineer

Inspection Once Every Year

by Competent Personnel

Monthly Inspection

by Maintenance/Inspection Team

Routine

Maintenance Inspections

If defects are found

Verify records

If minor

defects

If major slip or

recurring cracks

Immediate inspection by

Competent Personnel

Non-routine

Immediate inspection byGeotechnical Engineer

Carry out

repair works


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This Guideline needs the commitment of all the stakeholders to improve safety of hillsitedevelopment and enhance the environment. To succeed, it demands:

(i) Developers must engage competent engineers and contractors with capability andcapacity.

(ii) Engineers must exercise due skill and care when performing their duties in planning,analysis, design and supervision, and must complement these duties with a regimentof quality checking and review. Their service must include the preparation ofmaintenance manuals and the duty of adequate post-construction inspections.

(iii) Contractors must have trained personnel and proper and adequate plant andequipment to meet the design and specification requirements of the Works. Theimportance of implementing temporary works for safety, site control and erosionprotection must be instilled in the workers and implemented at the construction site.

(iv) Approving authorities must have experienced engineers in their geotechnical unitsto facilitate and enforce compliance with the Guideline.

When hard surfaces such as earth retaining systems and reinforced slopes have to beconstructed to enhance or achieve safety, all stakeholders must be committed to thegreen initiative to incorporate planting provisions on these facilities to achieve a friendlier

environment.


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PROPOSED FORMAT FOR GEOTECHNICAL REPORT

EXECUTIVE SUMMARY

BODY OF REPORT

1. Project Information

1.1 Project Title1.2 Name and contact details of developer1.3 Name and contact details of architect1.4 Name and contact details of C & S Engineer1.5 Name and contact details of submitting geotechnical engineer1.6 Curriculum vitae of submitting geotechnical engineer1.7 Approving authorities1.8 PM No.

2. Scope of Geotechnical Report

2.1 General scope2.2 Limitations

3. Background of Development

3.1 Location and land size3.2 Information on proposed development3.3 Information on surrounding developments

4. Area Geology and Terrain Classification

4.1 Regional geology4.2 General site geology and general structural geology highlighting the presence

of observable discontinuities e.g. rockslopes, cliffs, etc. Need Requirements forgeologist input (if necessary).

4.3 Terrain classification (terrain map) - terrain classification map to be plotted and

prepared based on the approved colour codes.4.4 Terrain geological component4.5 Construction suitability map


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5. Site Investigation

5.1 Topographical survey5.1.1 Topographical survey plans5.1.2 Aerial photographs

5.2 Site reconnaissance and desk study5.2.1 Site photographs5.2.2 General observations and description of the site (nature of terrain, surface

boulders, etc)5.2.3 Observable evidence of potential slope instability, water marks or slip

scars

5.3 Sub-surface soil investigation

5.3.1 Types of investigation (boreholes, mackintosh probes, etc)5.3.2 Weather conditions before and during the soil investigation5.3.3 Subsoil profiles derived from soil investigation to be plotted and

superimposed over the cross sections. Cross-sections should beperpendicular to ground contours and cross-sections need not be in astraight line.

5.3.4 Field testing and results5.3.5 Laboratory testing and results5.3.6 Groundwater table level measurements and records5.3.7 Selected soil parameters for design total and effective strength

parameters

5.4 Geophysical survey (if applicable)5.4.1 Need requirements for geophysical survey5.4.2 Type and method of geophysical survey5.4.3 Results of geophysical survey

6. Geotechnical Design

6.1 Geotechnical design considerations6.1.1 Geotechnical issues associated with the project

6.1.2 Design concepts and considerations


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6. Geotechnical Design (contd)

6.2 Slopes

6.2.1 Proposed cut slope6.2.2 Proposed fill slope6.2.3 Proposed rock cut slope6.2.4 Natural slope profiles6.2.5 Determination of worst probable groundwater table levels and /or

presence of perched groundwater table conditions6.2.6 Slope stability analyses (total or effective stress conditions, types/methods

of analysis and computer programs used)6.2.7 Stability analyzes and considerations of natural and man-made slopes

in neighbouring developments, which may affect the stability of thecurrent project and vice versa

6.2.8 Recommended slope stabilization/strengthening measures6.2.9 Recommended testing on the adequacy, safety and performance of

slope stabilization works

6.3 Earth Retaining Structures6.3.1 Types of earth retaining structures for the project6.3.2 Overturning stability, sliding stability and bearing capacity checks6.3.3 Global stability checks

6.4 Foundation Design

6.4.1 General considerations6.4.2 Preliminary foundation design information/calculations6.4.3 Effect of slopes on foundations and vice versa6.4.4 Recommendations

6.5 Filled Platforms and Embankments6.5.1 Settlement analyses6.5.2 Stability analyses

6.6 Rockfall Analysis (if applicable)6.6.1 Methods of analysis

6.6.2 Recommended measures to prevent and/or control rockfall and/orrecommended land buffer requirements

6.7 Earthwork Quantities6.7.1 Estimated cut quantity6.7.2 Estimated fill quantity6.7.3 Estimated rock excavation quantity

6.8 Surface and Sub-surface Water Problems (if applicable)6.8.1 Presence and/or evidence of surface/sub-surface water conditions

affecting the stability of slopes, retaining structures or foundations6.8.2 Recommended rectification and/or controlling measures


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6. Geotechnical Design (contd)

6.9 Temporary and permanent slope protection and surface drainage provisions

6.10 Instrumentation and Monitoring6.10.1 Need requirements for instrumentation and monitoring6.10.2 Type, location and quantity of instrumentation6.10.3 Recommended instrumentation monitoring programme

7. Earthworks Construction

7.1 Temporary works7.2 Construction control and safety provisions7.3 Construction method statement

7.4 Erosion and sediment control plan7.5 Controlled rock blasting requirements (if applicable)

8. Post-construction Slope and Site Maintenance

8.1 Maintenance of slopes and related facilities8.2 Frequency of slope maintenance inspections8.3 Responsibility for slope maintenance8.4 Slope maintenance manual

9. Conclusions And Recommendations

10. Engineers Declaration

11. References

12. Attachments

12.1 Planning Layout (Extracted Copy)12.2 Survey Plan and Terrain Map12.3 Slope Stability Analysis Results

12.4 Preliminary Design Calculations12.5 Erosion Sediment Control Plan12.6 Soil Investigation Reports12.7 Slope Maintenance Manual12.8 Independent Checker's Report


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INDEPENDENT CHECKER REPORT FORMAT

CURRICULUM VITAE OF INDEPENDENT CHECKER

EXECUTIVE SUMMARY

BODY OF REPORT

1. Introduction

2. Limitations

3. Development description and location

4. Area geology and terrain classification

5. Site investigation

5.1 Description of site5.2 Sub-surface soil investigation

5.2.1 Subsoil profile5.2.2 Field test results5.2.3 Laboratory test results5.2.4 Underground water table

5.3 Design soil parameters5.4 Geophysical survey

6. Geotechnical design

6.1 Geotechnical design consideration6.2 Slopes

6.2.1 Proposed cut slope6.2.2 Proposed fill slope6.2.3 Proposed rock slope6.2.4 Natural slope profile6.2.5 Slope stability analysis6.2.6 Slope stabilization measures6.2.7 Type of test for slope stabilization measures

6.3 Retaining structures

6.4 Foundation design considerations6.5 Slope protection and surface drainage provisions6.6 Instrumentation

7. Construction

8. Maintenance

9. Conclusion and Recommendations

10. Independent Checkers declaration

REFERENCE

ATTACHMENT


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CRITERIA FOR A RELEVANT EXPERIENCED ENGINEER

1. Technical Competence

a) Engineer should provide technical approach and methods for the project (e.g.types of foundation system, what are the pros & cons, cost effectiveness, long-term maintenance and serviceability).

b) Obtain a list of similar projects carried out by the firm. (e.g. projects of similartechnical nature and subsoil condition, constructed and handed over)

c) The competency, experiences and qualifications of personnel including peerrecognition. (e.g. technical papers published in seminar, conferences, etc.),

d) Check whether Engineer carry out knowledge management including Researchand Development (R&D) to improve their services. (e.g. evidence of in-houseengineering manuals, check-lists etc.). This is to ensure Clients get value designswhich are safe, cost effective and construction friendly.

e) Discuss with owners/clients of previous projects that involved the Engineer.

2. Managerial abilitya) Ensure Engineer have adequate manpower resources and maintain schedules.

(e.g. size of company and resources committed to be mobilized for the project)

b) Ensure Engineer have similar experience in handling the scaleof project.

c) Examine Engineers record of project achievement and success on previous projects(e.g. awards won, peer recognition, etc.). However, it is important to checkwhether the personnel involved in the previous successful projects are still withthe companyand will be involved in the project to be awarded.

d) Examine Engineers manual, check-lists or procedures of engineering that hefollows in order to perform his services (e.g. to submit the list of design manual,check-lists etc. for review by Client).

3. Availability of ResourcesEnsure Engineer has sufficient staff available to carry out the works & to obtain thelist of staff to be involved in the project.

4. Professional Independence & IntegrityEnsure the Engineer is registered with BEM. Also consult industry players on thereputation of the Engineer (e.g. on his reputation, integrity, competency, etc.)


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5. Fairness of FeeEngineers need to be adequately paid to ensure that they are able to give a highquality service with proper attention to detail, alternative designs, material and method

of construction.

a) Therefore, the Engineer shall be employed based on Value for Money ratherthan Lowest Price. This is because the engineers fees only contribute a verysmall percentage to the project cost. If ineffective or non-economical designs wereproduced by the engineer and used, the cost of remedial and unnecessary wastageof materials and workmanship will be SIGNIFICANTLY more than the fees paid.In addition, ineffective design may also cause DELAY in the project.

b) Alternatively if bidding process is still necessary to ensure competitiveness isobserved, only Pre-Qualified Engineers shall be invited to participate.

6. Quality Assurance SystemQuality of the project is often the most important measure of the services received.Without quality assurance system, the product and design may have high risk of notachieving its intended purpose.

a) It is encouraged that the Engineering Firm is ISO9001:2000 certified (e.g. eitherby SIRIM Berhad or other accrediting bodies).

b) The Engineer shall have proper procedures (written in black and white) andfollowed by the Engineers and staff to ensure all designs are checked. This shall

include having the necessary forms to record checking (examineevidence ofchecking and recording). The Client shall request the Engineer to submit theirprocedures and forms for verification.

c) The Engineer shall have proper filing and re-tractable procedures in place. (e.g.project filing and identification and traceability, which allows documents to betraced and submitted within a short period (e.g. less than 1 day).

d) All design (calculations, specifications, drawings, etc.) shall be properly checkedand reviewedby different person of relevant experiences within the company.The process shall have proper forms for evidence and record purposes.

e) The client has the right to engage another consulting firm with specialist to carryout independent review if needed.


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CHECKLIST FOR MAINTENANCE MANUAL

Man-made ItemSurface drainage channels,catchpits and sand traps

Weepholes and drainagepipes

Impermeable surface cover(e.g. gunite and shotcrete)

Vegetated surface cover

Rock slopes and boulders

Facing

Slope furnitureinstrumentations:inclinometers, settlementmarkers, tilt meters etc.installed on slopes andretaining structures.

Check ForDebris, undesirable vegetation and otherobstructions.

Cracks.

Missing or deteriorated joint fillers and sealant.

Obstructions (e.g. weeds and debris) inweepholes at pipe ends.

Undesirable vegetation growth.

Cracks or spalling.

Erosion.

Surface cover that has separated fromunderlying soil.

Missing or deteriorated joint fillers and sealant.

Dead, decaying or unstable trees.

Erosion

Dead vegetation surface

Overgrown vegetation.

Dead, decaying or unstable trees.

Cracked or spalled concrete surface andsupport.

Loose rock debris.

Undesirable vegetation.

Deteriorated mortar joints on masonry face.

Cracked or spalled concrete surface andreplace missing or deteriorated joint fillersand sealant.

Rust.

Reading (within acceptable range).

Movement on slope or retaining structure.


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There have been many who contributed their expertise, time and effort to produce the Penang GuidelineFor Hillsite Development 2012, including:

The Guideline Advisory Panel Committee

ChairmanIr Dr Gue See Sew

Deputy ChairmanIr Lim Kok Khong

Panel MembersIr Dr Goh Teik Cheong

Ir Dr Wong Fook KeongIr Ng Sin Chie

Ir Ting Chek Choon

Guideline Secretariat (Penang Island Municipal Council)

Ir Addnan Mohd RazaliMohd Mokhtar Hj Mohd MuradMohd Shukor Rejab

Amer HamzahMohamed Noor Mohamed Yunus

Mohamed Zaini Ayub

GOVERNMENT ENTITIES

Public Works DepartmentIr Naelah Mat Kasa

Town and Country Planning Department

Neoh Siew YinMinerals and Geoscience Department

Wan Salmi Wan Harun

Department of Irrigation and DrainageMohamad Faisal Mohamed Salahudin

Mohd Hasrulhisham Abdullah

Penang Island Municipal CouncilChe Noraini Abdullah

Mohd Nizam SaadS Bavani

Siti Nor Zalina MehatAmi Azlimi AhmadFazillah Sabuddin

Danny Koay Hock HsiangMusyarina Idrus

Norsuriana SulimanSiti Dayana Mohd Khairi

Seberang Perai Municipal CouncilMohd Saedon Ahmad

Land and District OfficeIsmail Yahaya

Reza Shamsuddin

Perbadanan Bekalan Air Pulau Pinang

Tan Lam Huat

All those attending the forum for a public presentation of the Guideline


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Penang Safety 1409

Documents

Transcript of Penang Safety 1409